CN1851998A - Parallel-in inverter current control method adopting filter intermediate current feed-back - Google Patents

Abstract

This invention discloses a method for controlling current of interconnected inverters applying current feed back, in which, a low-pass filter connected between the inverted output and a network applies a T-type circuit composed of inverse side serial inductors, two parallel by-pass capacitors and network side serial inductors, the capacitance ratio of the two by-pass capacitors is in inverse ratio to the inductance of the adjacent filter inductance and utilizes a current converter to test the current between the two by-pass capacitors and takes it as the feed back signal for the inverse output current control to be compared with the given signal of the network current then to be input into a ratio integral adjuster and takes the output signal after the adjustment as the pulse width modulation signal operated by the inverse switch to control the output waveforms and amplitude value of the interconnection inverter.

Description

Adopt the parallel inverter current control method of filter intermediate current feedback

Technical field

The present invention relates to the combining inverter control method, especially adopt the parallel inverter current control method of filter intermediate current feedback.

Background technology

Inverter with the operation function that generates electricity by way of merging two or more grid systems, its circuit such as Fig. 1 (a), (b) shown in, generally include the single-phase or three-phase inverter of PWM (pulse width modulation) control based on HF switch, be used for the LCL low pass filter that inversion grid connection connects operation, the current transducer that is used for current detecting, be used for the current regulator and the switch driving circuit that contain current error calculating and error signal proportional and integral controller that inverter is incorporated into the power networks, inverter is output current control when being incorporated into the power networks, and is the sinusoidal wave of strictness and has higher generated output factor to guarantee electric current.Traditional current control method is a feedback signal with the inversion side inductive current (being inverter output current) or the grid side inductive current (power network current) of LCL low pass filter mostly, and modes such as employing proportional integral do to regulate the also operation of control inverter to error signal.Because it is third-order system that the filter of LCL structure makes controlling object, near the filter corner frequency, there is very big gain spike, for guaranteeing system stability, the gain of proportional and integral controller is restricted, value is less, thereby make system less, limited the inhibition ability of system output current steady-state error and harmonic wave in the open-loop gain of low-frequency range.This method also is subject to the influence of line voltage distortion and Harmonic Interference.

Summary of the invention

The purpose of this invention is to provide a kind of stable state amplitude and phase error that under the control of satisfying system stability requires, reduces output current, enhancing is to the resistivity of electrical network distortion and Harmonic Interference, the parallel inverter current control method that the employing filter intermediate current of restriction power network current waveform distortion and harmonic content feeds back.

The parallel inverter current control method of employing filter intermediate current feedback of the present invention, it is characterized in that at the single-phase or three-phase inverter of pulse width modulation control that comprises based on HF switch, be used for the low pass filter that inversion grid connection connects operation, the current transducer that is used for current detecting, be used for that inverter is incorporated into the power networks to contain electric current weighting average, in the combining inverter circuit of the current regulator of Error Calculation and error signal proportional and integral controller and switch driving circuit, the low pass filter that is connected between inversion output and electrical network is adopted by inversion side series inductance, first shunt capacitance that is in parallel and second shunt capacitance, and the T type circuit of net side series inductance composition, the ratio of the capacity of first shunt capacitance and second shunt capacitance equals its inverse ratio of the inductance value of adjacent filter inductance separately, utilize current transducer to detect electric current between the two bypass electric capacity, and with the feedback signal of this electric current as inverter output current control, compare with the given signal of power network current, relatively the error signal of back output is imported proportional and integral controller, with the pulse width modulating signal of the output signal after the proportional integral adjusting as the inverse switch operation, the output current wave and the amplitude of control combining inverter.

The present invention adopts the parallel inverter current control method of filter intermediate current feedback to realize the stable output of combining inverter, and make controlling object transform first-order system as by third-order system originally approx, can realize the high performance control of power-supply system output current.Test shows that in the power-supply system of 5kW power, the line voltage distortion factor surpasses under 5% service conditions, and the distortion factor of the output current that is incorporated into the power networks is less than 3%, and power factor is greater than 0.99.

Control method simple possible of the present invention, than traditional control method, do not need to increase extra detection or controlling unit, only need two parts electric capacity that is in parallel is changed in the intermediate capacitance design of traditional LCL type output filter, the capacitance of two parts electric capacity is inversely proportional to the inductance value of adjacent filter inductance separately, and traditional inverter output current detected or the power network current detection line moves to the centre of above-mentioned two parts electric capacity, promptly finish track remodelling.When control ring designs, still adopt traditional proportional integral (PI) to regulate, but because the present invention is to the transformation of system's Control current feedback signal, make the characteristic of controlling object of current regulator be similar to the first-order system of single inductor filter, can design and adopt proportional plus integral control easily, when guaranteeing system stability, can select for use than direct inverter output current feedback or the directly bigger proportional gain of control mode of power network current feedback, thereby obtain stable output, less steady-state error and better dynamic response characteristic.Adopt this technology can make the output current waveform distortion degree of grid-connected system lower, harmonic content is little, phase accuracy is higher, and line voltage distortion and background harmonics disturbed have stronger resistivity, the distortion of inhibition power network current.Finally make grid-connected system obtain higher power factor and good output current wave.

The present invention is applicable to that with semiconductor device such as MOSFET, IGBT be power switch, adopts the three-phase or the single-phase grid-connected operation inverter of various forms PWM control, is used for the various power-supply systems that are incorporated into the power networks such as solar energy, wind-force, fuel cell power generation.

Description of drawings

Fig. 1 (a) is that traditional employing inverter output current is the combining inverter circuit diagram of feedback control signal;

Fig. 1 (b) is that traditional employing power network current is the combining inverter circuit diagram of feedback control signal;

Fig. 2 is a kind of physical circuit legend that adopts the combining inverter of the inventive method;

Fig. 3 is the characteristic comparison diagram that adopts the inventive method and conventional method control grid-connected system; Wherein figure (a) is the gain characteristic curve of parallel network reverse power-supply system; Figure (b) is the system circuit gain curve that has comprised the proportional integral conditioning controller.

Embodiment

Shown in Figure 2 is the combining inverter circuit that adopts the inventive method, it comprises that pulse width modulation (PWM) control single-phase inverter 1 based on HF switch is (in the legend, single-phase inverter is the voltage-source type semibridge system, employing IGBT is a power switch), be used for low pass filter 2, the current transducer 3 that is used for current detecting that inversion grid connection connects operation, be used for current regulator 4 and switch driving circuit 5 that inverter is incorporated into the power networks, wherein current regulator 4 contains that current error calculates, circuit takes place error signal proportional and integral controller and PWM.Inversion output connects electrical network by low pass filter, and low pass filter is by inversion side series inductance L ₁, the first shunt capacitance C that is in parallel ₁With the second shunt capacitance C ₂And net side series inductance L ₂The T type circuit of forming (to call the LCCL filter in the following text), the first shunt capacitance C ₁With the second shunt capacitance C ₂The ratio of capacity equal the inverse ratio of inversion output series inductance L1 and net side series inductance L2 inductance value.

Parallel inverter current control method is: the electric current in the employing current transducer detection LCCL filter between two bypass capacitor C 1 and the C2, and with the feedback signal of this electric current as current regulator, relatively obtain error signal with given current signal, by proportional integral (PI) adjuster error signal is done to obtain the PWM modulation signal after proportional integral is regulated, circuit and the operation of switch driving circuit control inverter take place by PWM in the PWM modulation signal, realize the output current wave of inversion grid connection electricity generation system and the closed-loop control of amplitude.

Inverter adopts Current Control PWM mode to move among the present invention, the HF switch frequency component of output current is suppressed under the effect of LCCL filter effectively, and the stability of output fundametal compoment and the inhibition of steady-state error and low-frequency harmonics then are decided by the closed-loop control of output current.By the change of filter and feedback signal, make the control characteristic of power-supply system change, the parameter of pi regulator also correspondingly can be improved, and reaches better closed-loop control characteristic.

Adopt the power-supply system characteristic contrast of the inventive method and conventional method control:

With a 5kW power-supply system is example, for the inverter output current feedback, referring to Fig. 1 (a), feedback current (i ₁) with respect to inverter output voltage V _iGain can be expressed as:

$\frac{I_1\left(s\right)}{V_i\left(s\right)}=\frac{L_2{\mathrm{Cs}}^2+1}{s(L_1{L}_2{\mathrm{Cs}}^2+L_1+L_2)}$

Its amplitude and phase characteristic are shown in Fig. 3 (a) curve 1.

For the power network current feedback, referring to Fig. 1 (b), feedback current (i ₂) with respect to inverter output voltage V _iGain can be expressed as:

$\frac{I_2\left(s\right)}{V_i\left(s\right)}=\frac{1}{s(L_1{L}_2{\mathrm{Cs}}^2+L_1+L_2)}$

Its amplitude and phase characteristic are shown in Fig. 3 (a) curve 2.

Curve 1 and curve 2 show that there is very big gain spike in the system gain when adopting traditional inverter output current feedback and current on line side FEEDBACK CONTROL between 1kHz and 2kHz;

The inventive method adopts electric current between LCCL two electric capacity as feedback signal, referring to Fig. 2, and feedback current (i ₁₂) with respect to inverter output voltage V _iGain can be expressed as:

$\frac{I_{12}\left(s\right)}{V_i\left(s\right)}=\frac{\frac{C_2}{C_1+C_2}{L}_2{\mathrm{Cs}}^2+1}{s(L_1{L}_2{\mathrm{Cs}}^2+L_1+L_2)}$

Because of capacitor C ₁, C ₂Satisfy proportionate relationship C ₁/ C ₂=L ₂/ L ₁, then following formula can be converted into:

$\frac{I_f\left(s\right)}{V_i\left(s\right)}=\frac{\frac{L_1}{L_1+L_2}{L}_2{\mathrm{Cs}}^2+1}{s(L_1+L_2)(\frac{L_1}{L_1+L_2}{L}_2{\mathrm{Cs}}^2+1)}$

After the simplification

$\frac{I_f\left(s\right)}{V_i\left(s\right)}=\frac{1}{s(L_1+L_2)}$

Therefore adopt the system gain characteristic curve of parallel network reverse power supply of the present invention will become straight line, shown in Fig. 3 (a) curve 3, the gain spike no longer occurs.

When the design proportion integral controller, at first should satisfy the requirement of system stability, promptly the phase deviation of cross-over frequency place should be less than 180 degree on the 0dB line for loop gain.Next is that the low-frequency range loop gain should be big as far as possible, and corner frequency is higher, with the stable state accuracy and the dynamic response characteristic of raising system output.Fig. 3 (b) is for having comprised the current closed-loop control system loop gain characteristic Bode diagram of proportional and integral controller, wherein curve 1 is the traditional inverter output current feedback loop gain characteristic shown in Fig. 1 (a), curve 2 is the traditional power network current feedback loop gain characteristic shown in Fig. 1 (b), and curve 3 is a LCCL filter intermediate current feedback loop gain characteristic of the present invention.Because there is not spike in LCCL filter capacitor intermediate current feedback control system loop gain of the present invention, under the requirement of guaranteeing system's control stabilization, can select bigger proportional and integral controller gain, system is obviously improved in the gain of low-frequency range, thereby strengthened the current error inhibition ability of (comprising fundamental voltage amplitude error, phase error and low-frequency harmonics component) during closed-loop control.

Claims (1)

1. adopt the parallel inverter current control method of filter intermediate current feedback, it is characterized in that at the single-phase or three-phase inverter of pulse width modulation control that comprises based on HF switch, be used for the low pass filter that inversion grid connection connects operation, the current transducer that is used for current detecting, be used for that inverter is incorporated into the power networks to contain electric current weighting average, in the combining inverter circuit of the current regulator of Error Calculation and error signal proportional and integral controller and switch driving circuit, the low pass filter that is connected between inversion output and electrical network is adopted by inversion side series inductance (L1), first shunt capacitance (C1) that is in parallel and second shunt capacitance (C2), and the T type circuit of net side series inductance (L2) composition, the ratio of the capacity of first shunt capacitance and second shunt capacitance equals its inverse ratio of the inductance value of adjacent filter inductance separately, utilize current transducer to detect electric current between the two bypass electric capacity, and with the feedback signal of this electric current as inverter output current control, compare with the given signal of power network current, relatively the error signal of back output is imported proportional and integral controller, with the pulse width modulating signal of the output signal after the proportional integral adjusting as the inverse switch operation, the output current wave and the amplitude of control combining inverter.